yosys/passes/pmgen/ice40_dsp.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#include "kernel/yosys.h"
#include "kernel/sigtools.h"
USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
#include "passes/pmgen/ice40_dsp_pm.h"
void create_ice40_dsp(ice40_dsp_pm &pm)
{
auto &st = pm.st_ice40_dsp;
log("Checking %s.%s for iCE40 DSP inference.\n", log_id(pm.module), log_id(st.mul));
log_debug("ffA: %s %s %s\n", log_id(st.ffA, "--"), log_id(st.ffAholdmux, "--"), log_id(st.ffArstmux, "--"));
log_debug("ffB: %s %s %s\n", log_id(st.ffB, "--"), log_id(st.ffBholdmux, "--"), log_id(st.ffBrstmux, "--"));
log_debug("ffCD: %s %s\n", log_id(st.ffCD, "--"), log_id(st.ffCDholdmux, "--"));
log_debug("mul: %s\n", log_id(st.mul, "--"));
log_debug("ffFJKG: %s\n", log_id(st.ffFJKG, "--"));
log_debug("ffH: %s\n", log_id(st.ffH, "--"));
log_debug("add: %s\n", log_id(st.add, "--"));
log_debug("mux: %s\n", log_id(st.mux, "--"));
log_debug("ffO: %s %s %s\n", log_id(st.ffO, "--"), log_id(st.ffOholdmux, "--"), log_id(st.ffOrstmux, "--"));
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log_debug("\n");
if (GetSize(st.sigA) > 16) {
log(" input A (%s) is too large (%d > 16).\n", log_signal(st.sigA), GetSize(st.sigA));
return;
}
if (GetSize(st.sigB) > 16) {
log(" input B (%s) is too large (%d > 16).\n", log_signal(st.sigB), GetSize(st.sigB));
return;
}
if (GetSize(st.sigO) > 33) {
log(" adder/accumulator (%s) is too large (%d > 33).\n", log_signal(st.sigO), GetSize(st.sigO));
return;
}
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if (GetSize(st.sigH) > 32) {
log(" output (%s) is too large (%d > 32).\n", log_signal(st.sigH), GetSize(st.sigH));
return;
}
Cell *cell = st.mul;
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if (cell->type == ID($mul)) {
log(" replacing %s with SB_MAC16 cell.\n", log_id(st.mul->type));
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cell = pm.module->addCell(NEW_ID, ID(SB_MAC16));
pm.module->swap_names(cell, st.mul);
}
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else log_assert(cell->type == ID(SB_MAC16));
// SB_MAC16 Input Interface
SigSpec A = st.sigA;
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A.extend_u0(16, st.mul->parameters.at(ID(A_SIGNED), State::S0).as_bool());
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log_assert(GetSize(A) == 16);
SigSpec B = st.sigB;
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B.extend_u0(16, st.mul->parameters.at(ID(B_SIGNED), State::S0).as_bool());
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log_assert(GetSize(B) == 16);
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SigSpec CD = st.sigCD;
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if (CD.empty())
CD = RTLIL::Const(0, 32);
else
log_assert(GetSize(CD) == 32);
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cell->setPort(ID::A, A);
cell->setPort(ID::B, B);
cell->setPort(ID(C), CD.extract(16, 16));
cell->setPort(ID(D), CD.extract(0, 16));
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cell->setParam(ID(A_REG), st.ffA ? State::S1 : State::S0);
cell->setParam(ID(B_REG), st.ffB ? State::S1 : State::S0);
cell->setParam(ID(C_REG), st.ffCD ? State::S1 : State::S0);
cell->setParam(ID(D_REG), st.ffCD ? State::S1 : State::S0);
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SigSpec AHOLD, BHOLD, CDHOLD;
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if (st.ffAholdmux)
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AHOLD = st.ffAholdpol ? st.ffAholdmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffAholdmux->getPort(ID(S)));
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else
AHOLD = State::S0;
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if (st.ffBholdmux)
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BHOLD = st.ffBholdpol ? st.ffBholdmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffBholdmux->getPort(ID(S)));
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else
BHOLD = State::S0;
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if (st.ffCDholdmux)
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CDHOLD = st.ffCDholdpol ? st.ffCDholdmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffCDholdmux->getPort(ID(S)));
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else
CDHOLD = State::S0;
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cell->setPort(ID(AHOLD), AHOLD);
cell->setPort(ID(BHOLD), BHOLD);
cell->setPort(ID(CHOLD), CDHOLD);
cell->setPort(ID(DHOLD), CDHOLD);
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SigSpec IRSTTOP, IRSTBOT;
if (st.ffArstmux)
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IRSTTOP = st.ffArstpol ? st.ffArstmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffArstmux->getPort(ID(S)));
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else
IRSTTOP = State::S0;
if (st.ffBrstmux)
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IRSTBOT = st.ffBrstpol ? st.ffBrstmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffBrstmux->getPort(ID(S)));
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else
IRSTBOT = State::S0;
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cell->setPort(ID(IRSTTOP), IRSTTOP);
cell->setPort(ID(IRSTBOT), IRSTBOT);
if (st.clock != SigBit())
{
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cell->setPort(ID(CLK), st.clock);
cell->setPort(ID(CE), State::S1);
cell->setParam(ID(NEG_TRIGGER), st.clock_pol ? State::S0 : State::S1);
log(" clock: %s (%s)", log_signal(st.clock), st.clock_pol ? "posedge" : "negedge");
if (st.ffA)
log(" ffA:%s", log_id(st.ffA));
if (st.ffB)
log(" ffB:%s", log_id(st.ffB));
if (st.ffCD)
log(" ffCD:%s", log_id(st.ffCD));
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if (st.ffFJKG)
log(" ffFJKG:%s", log_id(st.ffFJKG));
if (st.ffH)
log(" ffH:%s", log_id(st.ffH));
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if (st.ffO)
log(" ffO:%s", log_id(st.ffO));
log("\n");
}
else
{
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cell->setPort(ID(CLK), State::S0);
cell->setPort(ID(CE), State::S0);
cell->setParam(ID(NEG_TRIGGER), State::S0);
}
// SB_MAC16 Cascade Interface
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cell->setPort(ID(SIGNEXTIN), State::Sx);
cell->setPort(ID(SIGNEXTOUT), pm.module->addWire(NEW_ID));
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cell->setPort(ID(CI), State::Sx);
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cell->setPort(ID(ACCUMCI), State::Sx);
cell->setPort(ID(ACCUMCO), pm.module->addWire(NEW_ID));
// SB_MAC16 Output Interface
SigSpec O = st.sigO;
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int O_width = GetSize(O);
if (O_width == 33) {
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log_assert(st.add);
// If we have a signed multiply-add, then perform sign extension
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if (st.add->getParam(ID(A_SIGNED)).as_bool() && st.add->getParam(ID(B_SIGNED)).as_bool())
pm.module->connect(O[32], O[31]);
else
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cell->setPort(ID(CO), O[32]);
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O.remove(O_width-1);
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}
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else
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cell->setPort(ID(CO), pm.module->addWire(NEW_ID));
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log_assert(GetSize(O) <= 32);
if (GetSize(O) < 32)
O.append(pm.module->addWire(NEW_ID, 32-GetSize(O)));
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cell->setPort(ID(O), O);
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bool accum = false;
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if (st.add) {
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accum = (st.ffO && st.add->getPort(st.addAB == ID::A ? ID::B : ID::A) == st.sigO);
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if (accum)
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log(" accumulator %s (%s)\n", log_id(st.add), log_id(st.add->type));
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else
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log(" adder %s (%s)\n", log_id(st.add), log_id(st.add->type));
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cell->setPort(ID(ADDSUBTOP), st.add->type == ID($add) ? State::S0 : State::S1);
cell->setPort(ID(ADDSUBBOT), st.add->type == ID($add) ? State::S0 : State::S1);
} else {
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cell->setPort(ID(ADDSUBTOP), State::S0);
cell->setPort(ID(ADDSUBBOT), State::S0);
}
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SigSpec OHOLD;
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if (st.ffOholdmux)
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OHOLD = st.ffOholdpol ? st.ffOholdmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffOholdmux->getPort(ID(S)));
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else
OHOLD = State::S0;
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cell->setPort(ID(OHOLDTOP), OHOLD);
cell->setPort(ID(OHOLDBOT), OHOLD);
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SigSpec ORST;
if (st.ffOrstmux)
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ORST = st.ffOrstpol ? st.ffOrstmux->getPort(ID(S)) : pm.module->Not(NEW_ID, st.ffOrstmux->getPort(ID(S)));
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else
ORST = State::S0;
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cell->setPort(ID(ORSTTOP), ORST);
cell->setPort(ID(ORSTBOT), ORST);
SigSpec acc_reset = State::S0;
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if (st.mux) {
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if (st.muxAB == ID::A)
acc_reset = st.mux->getPort(ID(S));
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else
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acc_reset = pm.module->Not(NEW_ID, st.mux->getPort(ID(S)));
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}
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cell->setPort(ID(OLOADTOP), acc_reset);
cell->setPort(ID(OLOADBOT), acc_reset);
// SB_MAC16 Remaining Parameters
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cell->setParam(ID(TOP_8x8_MULT_REG), st.ffFJKG ? State::S1 : State::S0);
cell->setParam(ID(BOT_8x8_MULT_REG), st.ffFJKG ? State::S1 : State::S0);
cell->setParam(ID(PIPELINE_16x16_MULT_REG1), st.ffFJKG ? State::S1 : State::S0);
cell->setParam(ID(PIPELINE_16x16_MULT_REG2), st.ffH ? State::S1 : State::S0);
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cell->setParam(ID(TOPADDSUB_LOWERINPUT), Const(2, 2));
cell->setParam(ID(TOPADDSUB_UPPERINPUT), accum ? State::S0 : State::S1);
cell->setParam(ID(TOPADDSUB_CARRYSELECT), Const(3, 2));
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cell->setParam(ID(BOTADDSUB_LOWERINPUT), Const(2, 2));
cell->setParam(ID(BOTADDSUB_UPPERINPUT), accum ? State::S0 : State::S1);
cell->setParam(ID(BOTADDSUB_CARRYSELECT), Const(0, 2));
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cell->setParam(ID(MODE_8x8), State::S0);
cell->setParam(ID(A_SIGNED), st.mul->parameters.at(ID(A_SIGNED), State::S0).as_bool());
cell->setParam(ID(B_SIGNED), st.mul->parameters.at(ID(B_SIGNED), State::S0).as_bool());
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if (st.ffO) {
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if (st.o_lo)
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cell->setParam(ID(TOPOUTPUT_SELECT), Const(st.add ? 0 : 3, 2));
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else
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cell->setParam(ID(TOPOUTPUT_SELECT), Const(1, 2));
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st.ffO->connections_.at(ID(Q)).replace(O, pm.module->addWire(NEW_ID, GetSize(O)));
cell->setParam(ID(BOTOUTPUT_SELECT), Const(1, 2));
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}
else {
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cell->setParam(ID(TOPOUTPUT_SELECT), Const(st.add ? 0 : 3, 2));
cell->setParam(ID(BOTOUTPUT_SELECT), Const(st.add ? 0 : 3, 2));
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}
if (cell != st.mul)
pm.autoremove(st.mul);
else
pm.blacklist(st.mul);
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pm.autoremove(st.ffFJKG);
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pm.autoremove(st.add);
}
struct Ice40DspPass : public Pass {
Ice40DspPass() : Pass("ice40_dsp", "iCE40: map multipliers") { }
void help() YS_OVERRIDE
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" ice40_dsp [options] [selection]\n");
log("\n");
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log("Map multipliers ($mul/SB_MAC16) and multiply-accumulate ($mul/SB_MAC16 + $add)\n");
log("cells into iCE40 DSP resources.\n");
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log("Currently, only the 16x16 multiply mode is supported and not the 2 x 8x8 mode.\n");
log("\n");
log("Pack input registers (A, B, {C,D}; with optional hold), pipeline registers\n");
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log("({F,J,K,G}, H), output registers (O -- full 32-bits or lower 16-bits only; with\n");
log("optional hold), and post-adder into into the SB_MAC16 resource.\n");
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log("\n");
log("Multiply-accumulate operations using the post-adder with feedback on the {C,D}\n");
log("input will be folded into the DSP. In this scenario only, resetting the\n");
log("the accumulator to an arbitrary value can be inferred to use the {C,D} input.\n");
log("\n");
}
void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
{
log_header(design, "Executing ICE40_DSP pass (map multipliers).\n");
size_t argidx;
for (argidx = 1; argidx < args.size(); argidx++)
{
// if (args[argidx] == "-singleton") {
// singleton_mode = true;
// continue;
// }
break;
}
extra_args(args, argidx, design);
for (auto module : design->selected_modules())
ice40_dsp_pm(module, module->selected_cells()).run_ice40_dsp(create_ice40_dsp);
}
} Ice40DspPass;
PRIVATE_NAMESPACE_END